The catalyst maintained the initial conversion rate of 30 percent for 96 hours after the reaction started, which is significantly more stable than conventional catalysts. Propylene selectivity is as ...

(Nanowerk Spotlight) Electrochemical conversion of carbon dioxide to carbon monoxide represents an effective approach to both reduce greenhouse gas emissions and produce valuable chemical feedstocks.

A new catalyst design could transform how acetaldehyde is made from renewable bioethanol. Researchers found that a carefully ...

A carefully engineered gold catalyst has just pushed green chemistry into new territory, setting a performance benchmark that ...

Researchers develop an AI-based platform that integrates reaction data with catalyst performance for the design of new ...

Japanese scientists unveil a catalyst that turns CO₂ into liquid methanol at room temperature with 100% efficiency.

A Rice University-led team has unveiled how tiny molecular structures on industrial catalysts behave during the manufacture ...

Japanese researchers revealed that a novel palladium-loaded amorphous InGaZnOx (a-IGZO) catalyst converted carbon dioxide to methanol with over 91% selectivity. The study was published in the Journal ...